CN204813436U - Gas goblet is produced to automatic refrigeration of fast standard - Google Patents

Abstract

The utility model discloses a gas goblet is produced to automatic refrigeration of fast standard, this glass end suitable for reading is connected the system steam turbine and is constructed, refrigerating plant is connected to the lower extreme, cup body wall is equipped with the intermediate layer that the air conditioning backward flow was said, the refrigeration room of refrigerating plant's pyroelectric effect formation cooling and the heat abstractor's of semiconductor refrigeration piece air current room is linked together with air inlet and the gas outlet that the air conditioning backward flow was said respectively, the cold source of indoor production of refrigerating passes through the fan makes the cold airflow gyration in the air conditioning backward flow of cup body wall is said, the mandrel that the system steam turbine constructs the inner chamber connects gradually storage bin and metering plate and goes out the charging tray, raw materials in the storage bin is imported out to flow into in the discharge opening of charging tray after the metering plate ration and is made vapour in the cup body, and cool down through refrigerating plant. The utility model discloses system vapour is fast, and refrigeration effect is good, can appear the system at any time and drink safety and sanitation at present.

Description

Speed standard Automatic-cooling aerogenesis goblet

Technical field

The utility model relates to a kind of container for drink, especially relates to a kind of fast standard Automatic-cooling aerogenesis goblet.

Background technology

Drink soda summer and have a kind of refrigerant sensation, because containing a large amount of carbon dioxides in soda, carbon dioxide can take away the heat in body, the effect that playing relieves summer heat quenches one's thirst, so liking quite by everybody.Soda commercially available is at present all by being filled with carbon dioxide under certain conditions during fabrication, make carbon dioxide in the beverage miscible, in order to improve color, smell and taste and extend the pot life, pigment, additive and anticorrisive agent is added in beverage, if people often drink, certain harm certainly will be caused to health.In soda, sugar content is high simultaneously, can not eat again the colony containing confectionery, but hang back for hobby soda.In order to address this problem, applicant has invented the cup of a kind of automatic speed soda processed, (notification number: CN203935062), it is made up of cup body and preparation portion and lid, metering plate and bank is provided with in preparation portion, bank inner chamber is provided with Zhi Qi raw material issuing room and Zeng Wei issuing room and flavouring issuing room, the charging hole of each issuing room and the dosing hole set by metering plate and cooperatively interact between the discharge opening of base plate, raw material in charging hole enters into dosing hole, make the batching obtaining required ratio in dosing hole, raw material in dosing hole enters into the beverage in cup from the discharge opening of base plate, automatically the soda containing carbon dioxide of various taste is made.Although rotate bank just can produce one glass of soda, preparation speed is fast, and now system is now drunk at any time, also there are some structural defects, cause feed unstable, affect aerogenesis effect, can not freeze.

Summary of the invention

The purpose of this utility model is for existing deficiency, and provide a kind of preparation carbon dioxide effective, speed is fast, the goblet that also can freeze.

To achieve the above object, the utility model solves the technical scheme that its technical problem adopts: a kind of fast standard Automatic-cooling aerogenesis goblet, comprise a glass body, steam turbine structure processed, refrigerating plant, the wall of cup of described cup body is provided with the interlayer in cold air backflow road, the cup end, is provided with refrigerating plant, the pyroelectric effect of described refrigerating plant forms reflux with the cold air respectively air inlet in road of the cool room of cooling and the airflow chamber of the heat abstractor of semiconductor chilling plate and is connected with gas outlet, the wall of cup of airflow chamber side is provided with steam vent, cool guiding block in cool room is attached to bottom cup mutually, air inlet is provided with the fan driving air-flow, described steam turbine structure processed is dismountable being threaded with cup body, the axle of steam turbine structure inner chamber processed connects storage bin successively, metering disk, dividing plate and discharge port plate, two bucket-shaped issuing room are at least provided with in storage bin, charging hole is provided with bottom issuing room, dosing hole on metering disk is stacked with the charging hole in issuing room is concentric, after metering disk rotates by external force, the axes coincide of the discharge opening of the pivot center of dosing hole and the through hole of dividing plate and discharge port plate, ring spring is connected with between described metering disk and dividing plate, the sealing flashboard in sealed discharging hole is provided with in discharge opening, sealing flashboard linking springs, the external push button of sealing flashboard, push button is positioned at the indentation of steam turbine structure shell body processed.

Described metering disk both sides are provided with buckle, and buckle is connected in the draw-in groove of steam turbine structure upper inner wall processed.

Described discharge port plate is provided with chute, and chute extends in discharge opening, and the chute in discharge opening is provided with sealing ring, and sealing flashboard slides against in chute.

Described cup body outer wall is provided with heat-insulation layer.

Described cup body is provided with containing mark.

After adopting said structure, bottom and the cup body of steam turbine structure processed are that dismountable helixseal is connected, the carbon dioxide that the utility model produces is made by the chemical reaction of citric acid and sodium acid carbonate and water, therefore in the storage bin of top, each issuing room places citric acid and sodium acid carbonate respectively, under static state, charging hole bottom issuing room is stacked with the dosing hole on metering disk is concentric, in raw material automatic stream dosing hole in issuing room, because issuing room is bucket-shaped, charging hole surrounding cliff there is not the phenomenon of being detained raw material, make the interior input raw material of dosing hole abundant, quantitatively accurately.The volume size of each dosing hole designs according to the ratio of pulp furnish aequum, and the ratio of citric acid and sodium acid carbonate and water is 0.9:0.6:100.Metering disk is driven to rotate when rotating the top of steam turbine structure processed, when after the pivot center of the dosing hole on metering disk and the dead in line of discharge opening, raw material this moment in dosing hole enters into discharge opening rapidly, stop after to the twisting on top in external force, metering disk is under the effect of ring spring, dosing hole on metering disk automatically resets and to keep on the same axis with charging hole, and the raw material in issuing room is automatic again to be flow in dosing hole from charging hole, waits for next time and continues to use.Because sealing flashboard makes discharge opening keep sealing state all the time under the state of non-work done, therefore the citric acid entered from dosing hole and sodium acid carbonate raw material are retained in each discharge opening, and the raw material of each discharge opening is put in glass body and controlled by the push button of sealing flashboard respectively.Citric acid, sodium acid carbonate and water carry out chemical reaction, thus produce carbon dioxide, become soda goods.Refrigerating plant freezes to the soda made.The low-temperature receiver produced in cool room is lowered the temperature to the beverage in cup by cold air backflow road, and beverage temperature controls 1 ° of-6 ° of mouthfeel better.

The utility model has the advantages that: 1. discharge opening is hermetically-sealed construction, moisture cannot enter in steam turbine structure processed, and make the de-material of steam turbine structure internal structure processed rapidly clean, the raw material in storage bin keeps dry, and improves storage time; 2. issuing room is bucket-shaped, and charging hole perisporium is not detained raw material, and make input raw material in dosing hole abundant, quantitatively accurately, aerogenesis is effective.3. easy to operate, manufacturing speed is fast, all-ages, can show system at any time and now drink, and according to oneself hobby, is mixed with the soda that taste is liked, safety and sanitation.4. refrigerating plant adopts semiconductor chilling plate as extraordinary low-temperature receiver, semiconductor chilling plate is the feature according to pyroelectric effect technology, particular semiconductor material thermoelectric pile is adopted to freeze, without any need for cold-producing medium, can continuous operation, do not have pollution sources there is no rotary part, gyroscopic action can not be produced, do not shake and noise during work, not to environmental danger, power consumption is economized.5. the airflow chamber of heat abstractor communicates with gas outlet, reduces the temperature difference of hot and cold air, prevents dew condensation phenomenon.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the structural representation of steam turbine structure processed.

Fig. 3 is the structural representation of refrigerating plant.

Fig. 4 is the structural representation that charging hole and dosing hole overlap.

Fig. 5 be dosing hole and discharge opening overlap schematic diagram.

Fig. 6 is the structural representation of discharge port plate.

Below in conjunction with drawings and embodiments, the utility model is described in further detail.

Detailed description of the invention

As shown in Figure 1, a kind of fast standard Automatic-cooling aerogenesis goblet, comprises glass body 1, steam turbine structure 2 processed, refrigerating plant 3, the opening portion of cup body is provided with steam turbine structure 2 processed, and the shell body of described steam turbine structure 2 processed is flexibly connected by top 27 and bottom 28 and forms, and the top 27 of steam turbine structure 2 processed can be rotated.Top 27 inner chamber is provided with storage bin 21 and metering disk 22, and bottom 28 inner chamber of steam turbine structure processed is provided with dividing plate 23 and discharge port plate 24, and bottom 28 and the opening portion of cup body of steam turbine structure processed are dismountable being threaded.Dividing plate 23 and the discharge port plate 24 of the storage bin 21 on steam turbine structure top processed and metering disk 22 and bottom are connected by axle 25 successively.The body wall of described cup body 1 is provided with the interlayer in cold air backflow road 11, cup body outer wall is provided with heat-insulation layer 12, cup body is provided with containing mark 13, bottom cup body, 16 are provided with refrigerating plant 3, be provided with the socket 43 of Automatic Temperature Control 41 and power control system 42 and circumscripted power line in cup base 4, outside cup base, be also provided with power switch 44.

As shown in Figure 2,4, be at least provided with two bucket-shaped issuing room 211 in storage bin 21, the storage bin 21 in the present embodiment is made up of two bucket-shaped issuing room 211, is provided with charging hole 212 bottom issuing room.Metering disk 22 be provided with issuing room 211 bottom charging hole 212 match and merge concentric two dosing holes 221 be stacked, upper plane and the storage bin 21 exterior bottom wall plane of metering disk 22 are closely affixed.The buckle 222 of metering disk 22 both sides is connected in the draw-in groove 271 of top 27 shell body madial wall of steam turbine structure processed, the two ends of ring spring 26 connect the dividing plate 23 of metering disk 22 and bottom, the top 27 twisting steam turbine structure processed makes metering disk 22 rotate, after the top 27 of steam turbine structure processed loses External Force Acting, metering disk 22 resets under the effect of ring spring 26.

As shown in Fig. 2,4,5, without under External Force Acting, the charging hole 212 bottom issuing room 211 and the dosing hole 221 on metering disk 22 are stacked with one heart, and the diameter of charging hole 212 is greater than the diameter of dosing hole 221.Raw material in issuing room 211 flow in dosing hole 221 automatically, and the volume size of dosing hole 221 designs by the requirement of the various pulp furnish in issuing room 211.The top 27 twisting steam turbine structure processed makes metering disk 22 rotate, the axis b of the discharge opening 241 on the pivot center a of the dosing hole 221 on metering disk 22 and the through hole 231 of adjacent dividing plate 23 and discharge port plate 24 coincides, automatically entered into the discharge opening 241 of discharge port plate 24 in each dosing hole 221 by the raw material that proportioning is quantitative this moment, the lower plane of metering disk 22 and the upper plane of dividing plate 23 are closely affixed, make the raw material of metering disk 22 when rotated in dosing hole 221 along dividing plate 23 planar movement, keep quantitatively accurately.After the top 27 of steam turbine structure processed is not subject to External Force Acting, metering disk 22 automatically resets under the effect of ring spring 26, and the raw material in issuing room 211 continues to flow in dosing hole 221 from charging hole 212.

As shown in Figure 2,6, the bottom 28 of steam turbine structure 2 processed is provided with overlapping dividing plate 23 and discharge port plate 24, through hole 231 on dividing plate 23 is equal with dosing hole 221 magnitude setting on metering disk 22 with discharge opening 241 magnitude setting on discharge port plate 24, on the same axis, the diameter of through hole 231 and discharge opening 241 is greater than the diameter of dosing hole 221 for through hole 231 on dividing plate 23 and the discharge opening 241 on discharge port plate 24.Chute 243 is provided with in the side of discharge opening 241, chute 243 extends in discharge opening 241, chute 243 in discharge opening 241 is provided with sealing ring 245, sealing flashboard 242 slides in chute 243, sealing flashboard 242 is connected with spring 244, and sealing flashboard 242, under the effect of spring 244, is sealed in discharge opening 241 all the time, sealing flashboard 242 is circumscribed with push button 246, and push button 246 is positioned at the indentation of steam turbine structure 2 shell body processed.Promoting push button 246 makes sealing flashboard 242 be moved in the chute 243 of discharge opening 241 side from discharge opening 241, and when push button 246 loses promotion, sealing flashboard 242 automatically extend in discharge opening 241 under the effect of spring 244, is sealed by discharge opening 241.Raw material in each discharge opening 241 is thrown in and is controlled by the push button 246 of sealing flashboard 242 respectively.

As shown in Figure 1,3, the wall of cup of described cup body 1 is provided with the interlayer in cold air backflow road 11, cold air backflow road 11 is provided with air inlet 14 and gas outlet 15, the cup end, is provided with refrigerating plant 3, the pyroelectric effect of described refrigerating plant 3 forms the reflux air inlet 14 in road 11 of the cool room 31 of cooling and cold air and is connected, semiconductor chilling plate 35 connects heat abstractor 36, the airflow chamber 32 of heat abstractor 36 is connected with gas outlet 15, the wall of cup of airflow chamber 32 side is provided with steam vent 37, and the hot gas in airflow chamber 32 is discharged from steam vent.Semiconductor chilling plate 35 connects cool guiding block 33, cool guiding block 33 in cool room 31 to be attached to bottom cup 16 mutually, air inlet 14 is provided with the fan 34 driving air-flow, cold air in cool room 31 is blown in the cold air backflow road 11 of glass body wall through fan 34, and cold air is lowered the temperature to beverage in cup in backflow road.

The bottom 28 of steam turbine structure processed is connected in dismountable helixseal with cup body 1, and the top 27 of steam turbine structure processed can rotate.The carbon dioxide produced is made by the chemical reaction of citric acid and sodium acid carbonate and water.Citric acid and sodium acid carbonate is placed in the issuing room 211 of the therefore storage bin 21 on the top of steam turbine structure processed.Charging hole 212 bottom issuing room 211 is stacked with the dosing hole 221 on metering disk 22 is concentric, in raw material automatic stream charging hole 212 in issuing room 211, because issuing room 211 is bucket-shaped, charging hole 212 surrounding cliff there is not the phenomenon of being detained raw material, make the inner chamber input raw material of dosing hole 221 abundant, quantitatively accurately.The volume size of each dosing hole 221 designs according to the ratio of pulp furnish aequum, and the ratio of citric acid and sodium acid carbonate and water is 0.9:0.6:100.Metering disk 22 is connected with the top 27 of steam turbine structure processed, metering disk 22 is driven to rotate when rotating the top 27 of steam turbine structure processed, after the pivot center a of the dosing hole 221 on metering disk 22 overlaps with the axis b of discharge opening 241, this moment, raw material in dosing hole 221 enters into rapidly discharge opening 241, when external force stops twisting the top 27 of steam turbine structure processed, metering disk 22 is under the effect of ring spring 26, dosing hole 221 on metering disk 22 automatically resets and keeps on the same axis with charging hole 212, raw material in issuing room 211 is automatic again to be flow in dosing hole 221 from charging hole 212, wait for next time to continue to use.Because the effect of sealing flashboard 242 by spring 244 under the state of non-work done makes discharge opening 241 keep sealing state all the time, the citric acid entered from dosing hole 221 and sodium acid carbonate raw material are retained in each discharge opening 241, when promoting the push button 246 of sealing flashboard 242, sealing flashboard 242 leaves discharge opening 241, raw material in discharge opening 241 enters into glass body 1, because sealing flashboard 242 is connected with spring 244, when push button 246 loses promotion, sealing flashboard 242 is under the effect of spring 244, automatically reset and seal discharge opening 241, discharge opening 241 is made to remain sealing state.

During use, after adding the drinking water of equivalent by cup body 1 containing mark 13, bottom 28 and the cup body 1 of steam turbine structure processed are tightly connected, then after the top 27 of rotation steam turbine structure processed puts in place, citric acid now in dosing hole 221 and sodium acid carbonate are sent in discharge opening 241 respectively, the top 27 of steam turbine structure processed is automatically reseting without under External Force Acting, then sealing flashboard 242 push button 246 in citric acid discharge opening 241 and sealing flashboard 242 push button 246 in sodium acid carbonate discharge opening 241 is promoted, citric acid and sodium acid carbonate is made to enter in cup and water generation chemical reaction, thus generation carbon dioxide, become soda goods.Also can add fruit juice or flavor enhancement when making, being mixed with the soda that oneself taste is liked.After soda makes, opening switch, refrigerating plant 3 freezes to the soda made.The low-temperature receiver produced in cool room 31 makes cold airflow turn round in the cold air backflow road 11 of cup body wall by fan 34, and reach and lower the temperature to the beverage in cup, generally, beverage temperature controls 1 ° of-6 ° of mouthfeel better.

Obviously; above-described embodiment of the present utility model is only be preferred embodiment of the present utility model; certainly the interest field of the utility model can not be limited with this; therefore according to spirit of the present utility model the apparent change of extending out or variation, still belong among the utility model institute protection domain.

Claims (5)

1. a fast standard Automatic-cooling aerogenesis goblet, comprise a glass body (1), steam turbine structure (2) processed, refrigerating plant (3), it is characterized in that: the wall of cup of described cup body (1) is provided with the interlayer of cold air backflow road (11), the cup end, is provided with refrigerating plant (3), the pyroelectric effect of described refrigerating plant (3) forms reflux with the cold air respectively air inlet (14) of road (11) of the cool room (31) of cooling and the airflow chamber (32) of the heat abstractor (36) of semiconductor chilling plate (35) and is connected with gas outlet (15), the wall of cup of airflow chamber (32) side is provided with steam vent (37), cool guiding block (33) in cool room (31) is attached to (16) bottom cup mutually, air inlet (14) is provided with the fan (34) driving air-flow, described steam turbine structure (2) processed is threaded in dismountable with cup body (1), the axle (25) of steam turbine structure (2) inner chamber processed connects storage bin (21) successively, metering disk (22), dividing plate (23) and discharge port plate (24), two bucket-shaped issuing room (211) are at least provided with in storage bin (21), issuing room (211) bottom is provided with charging hole (212), dosing hole (221) on metering disk (22) is stacked with the charging hole (212) in issuing room (211) is concentric, after metering disk (22) rotates by external force, the axis (b) of the discharge opening (241) of the pivot center (a) of dosing hole (221) and the through hole (231) of dividing plate (23) and discharge port plate (24) coincides, ring spring (26) is connected with between described metering disk (22) and dividing plate (23), the sealing flashboard (242) in sealed discharging hole (241) is provided with in discharge opening (241), sealing flashboard (242) linking springs (244), sealing flashboard (242) external push button (246), push button (246) is positioned at the indentation of steam turbine structure (2) shell body processed.

2. one according to claim 1 fast standard Automatic-cooling aerogenesis goblet, is characterized in that: described metering disk (22) both sides are provided with buckle (222), and buckle (222) is connected in the draw-in groove (271) of steam turbine structure top (27) madial wall processed.

3. one according to claim 1 fast standard Automatic-cooling aerogenesis goblet, it is characterized in that: described discharge port plate (24) is provided with chute (243), chute (243) extends in discharge opening (241), chute (243) in discharge opening (241) is provided with sealing ring (245), and sealing flashboard (242) slides against in chute (243).

4. one according to claim 1 fast standard Automatic-cooling aerogenesis goblet, is characterized in that: described cup body (1) outer wall is provided with heat-insulation layer (12).

5. one according to claim 1 fast standard Automatic-cooling aerogenesis goblet, is characterized in that: described cup body (1) is provided with containing mark (13).